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Barium Titanate /BaTiO3 MicroPowder (BaTiO3, 99.9%, APS <40um,Tetragonal)

High-thickness optical information stockpiling; Phase conjugated mirrors and lasers; Nonlinear optical gadgets; Pattern acknowledgment; Micro-capacitors; Ferroelectric pottery; PTC thermistors; On-chip programmable gadgets; Optical figuring; Optical picture handling…

                                                Barium Titanate Micropowder
Product No NRE-10007
CAS No. 12047-27-7
Formula BaTiO3
APS <40 um  (Can be Customized)
Purity 99.9%
Color white
Molecular Weight  233.19 g/mol
Density 6.02 g/cm3
Melting Point 1625 °C
Boiling Point NA

Barium Titanate /BaTiO3 MicroPowder (BaTiO3,Tetragonal) Application:

High-thickness optical information stockpiling; Phase conjugated mirrors and lasers; Nonlinear optical gadgets; Pattern acknowledgment; Micro-capacitors; Ferroelectric pottery; PTC thermistors; On-chip programmable gadgets; Optical figuring; Optical picture handling; Piezoelectric gadgets; Pyroelectric sensors; Semiconductive earthenware production; Varistors; Electro-optic gadgets; Ceramic capacitors; Dielectric intensifiers; Dynamic holography.

Applications Electronics and Capacitors:

Multilayer Ceramic Capacitors (MLCCs): BaTiO₃ is widely used in the production of capacitors, particularly multilayer ceramic capacitors (MLCCs), which are essential components in modern electronic devices. The high dielectric constant of BaTiO₃ allows for the production of small, high-capacitance capacitors, which are used in everything from smartphones and laptops to automotive electronics and telecommunications equipment.

Energy Storage Devices: Due to its high dielectric constant, BaTiO₃ micro-powder is also used in energy storage devices and supercapacitors to improve energy density and charge storage capacity.

Piezoelectric Devices:

Sensors and Actuators: Barium titanate’s piezoelectric properties make it highly useful in sensors and actuators. When subjected to mechanical stress, BaTiO₃ generates an electric charge, which can be used to detect changes in pressure, vibration, or force. It is commonly used in microphones, speakers, and medical devices such as ultrasound equipment.

Transducers: BaTiO₃ micro-powder is used to create ultrasonic transducers, which are employed in a wide range of applications, including non-destructive testing, imaging devices, and industrial monitoring systems.

Ferroelectric Memory (FeRAM):

Ferroelectric Random Access Memory: Barium titanate is a key material in the development of FeRAM, a type of non-volatile memory. This memory type uses the ferroelectric properties of BaTiO₃ to store data, making it faster and more energy-efficient than traditional forms of non-volatile memory like flash memory.

 

Medical Applications:

Medical Imaging: BaTiO₃ micro-powder has been explored for use in medical imaging devices, such as ultrasound transducers and other diagnostic equipment that require precise piezoelectric materials.

Biomedical Sensors: Due to its piezoelectric properties, it can also be used in biosensors for medical diagnostics and monitoring of physiological parameters.

 

 

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